Mukhopadhyay…CV… Page 1

Sharmila M. Mukhopadhyay

Professor of Mechanical and Materials Engineering

Founding Director, Center for Nanoscale Multifunctional Materials

Wright State University, Dayton, OH 45435

http://cecs.wright.edu/~smukhopa/

http://cecs.wright.edu/nanocenter/

AREAS OF INTEREST

Advanced Multifunctional Materials and Structures; Multidisciplinary Engineering Education;

Surface and Interface Phenomena; Novel Materials for Energy, Environment and Biomedical

Applications.

EDUCATION

Ph.D. Materials Science & Engineering

Cornell University GPA: 3.9946/4.0000

M. S. / B.S. Solid State Physics

Indian Institute of Technology First Class Honors

PROFESSIONAL EXPERIENCE

2008- Founding Director, Center for Nanoscale Multifunctional Materials

1997- Dept. of Mechanical & Materials Engineering, Wright State University.

1990-1997 Metallurgy & Materials Science (subsequently dissolved), Polytechnic

University, Brooklyn, NY.

1989 - 1990 Post- Doctoral Associate, Ceramic Research Center

Rutgers University, Busch Campus, Piscataway, NJ

1983 - 1989 Graduate Research Assistant, Cornell University

Dept. of Materials Science and Engineering

2000-03 Summer Faculty Fellow, Air Force Research Laboratory

Summer, 1986 Consultant, Oak Ridge National Laboratory

HONORS/ AWARDS

Jefferson Science Fellow, National Academies, 2016-17

Elected Fellow, American Ceramic Society, 2007

Trustee’s Award of Faculty Excellence, Wright State University, 2011.

Outstanding Faculty Member, College of Engineering & Computer Science, 2011.

Outstanding Scientist, College of Engineering and Computer Science, 2005.

Featured in Marquis “Who’s Who in America”, “Who’s Who in Science and Engineering”

Certificate for National Ranking (top 10) at the Indian School Certificate Examination.

Merit Scholarship for B.S. performance, Indian Institute of Technology.

Featured in multiple media releases such as Innovation News Daily, AZoNano, Ceramic

Bulletin, PhysOrg, Homeland Security News Wire, Dayton Business Journal etc.

Mukhopadhyay…CV… Page 2

SUMMARY OF CAREER HIGHLIGHTS

The following are some of my career highlights elaborated in the next few pages:

I. Center for Nanoscale Multifunctional Materials:

II. Media impact of research leadership activity at WSU:

III. Sample Publications: From over 100 papers, book chapters, reports, and reviews (over

2,800 citations on google scholar).

IV. Research Grants and Contracts: Obtained and directed over forty externally funded

research projects from a large number of Federal, State, and Industrial sponsors such as:

National Science Foundation (NSF)

Department of Energy (DOE)

Air Force Office of Scientific Research (AFOSR)

Air Force Research Laboratory (AFRL)

Environmental protection Agency (EPA)

National Aeronautics and Space Agency (NASA)

Ohio Board of Regents, Third Frontier (OBOR)

Teagle Foundation

Proctor and Gamble

Multiple small companies through SBIR/STTR etc.

V. Classroom Teaching and Course Development at different levels ranging from

introductory undergraduate courses to Ph.D. Core Courses, as well as Advanced Special

Topics.

VI. Research Mentoring and Supervision on a variety of topics. Additional participation as

Committee Member in several other theses and dissertations.

VII. Non-thesis mentoring in independent studies and design projects ranging from Precollege,

Freshmen Engineering to Capstone Design Teams.

VIII. External educational activities at regional, national, and international levels.

IX. Development of materials fabrication and characterization facilities for research as well

as instruction.

X. Services to professional organizations: leadership positions in societies, symposium

organization, review panels, journal review and editorial boards.

XI. Services to the university: university-level, college-wide, and departmental committees.

XII. Sample outreach and voluntary activities for the larger community.

Mukhopadhyay…CV… Page 3

I. CENTER FOR NANOSCALE MULTIFUNCTIONAL MATERIALS (CENSMM)

Website: http://www.engineering.wright.edu/nanocenter/

The Center was created by Dr. Mukhopadhyay in 2008 as a charter from the Provost, Vice

President of Research, and the Dean of CECS at Wright State University (WSU). It serves as a

focal point for science and engineering research and education in the expanding field of nano-

technology, and fosters multidisciplinary efforts of university faculty with industrial and federal

researchers. Partnering institutions include several for-profit companies, Air Force Research

Laboratory, the Environmental Protection Agency, and multiple universities with funded

collaborative projects.

II. MEDIA IMPACT OF RESEARCH ACTIVITY AT WSU

(The following is a small sample from widely acclaimed projects my group has conducted at WSU.

Some of these have been highlighted in different languages across the world.)

General leadership profiles in the scientific community

http://www.bizjournals.com/dayton/potmsearch/detail/submission/5483312/Sharmila_Mukho

padhyay?l=&time=&ind=&type=&id=2016-01-26&ro=1

http://www.dayton.com/news/news/local/wright-state-professor-named-us-foreign-policy-

gro/np9HM/

http://sites.nationalacademies.org/PGA/Jefferson/PGA_169847

http://www.azonano.com/article.aspx?ArticleID=2499

Media releases related to recent environmental applications (2010-onwards)

http://phys.org/news/2012-01-watershed-moment-purification.html

http://www.nanowerk.com/news/newsid=23972.php

http://www.homelandsecuritynewswire.com/dr20120117-innovative-method-of-water-

purification

http://ceramics.org/ceramic-tech-today/cnt-nanobrushes-coated-with-nanocatalysts-show-

promise-for-cleaning-polluted-water

http://www.daytondailynews.com/news/business/wsu-researcher-creates-nano-brushes-that-

remove--1/nMy2B/

http://www.frogheart.ca/?tag=sharmila-mukhopadhyay

Earlier media releases related to superconductivity projects

http://phys.org/news2386.html

Dayton Business Journal, 2005 (hardcopy)

Mukhopadhyay…CV… Page 4

III. SELECTED PUBLICATIONS

(Partial list from over 120 archival papers, books, patents and reports)

Last five years (2011 – present)

1. Akhil Patel, Shilpaa Mukundan, Wenhu Wangb, Anil Karumuri, Vinayak Sant, Sharmila M.

Mukhopadhyay, Shilpa Sant, Carbon-based hierarchical scaffolds for myoblast

differentiation: Synergy between nano-functionalization and alignment, Acta Biomaterialia

(2016) in press.

2. Rajaram Narayanan, Hema Vijwani, Sharmila M. Mukhopadhyay, Prabhakar R. Bandaru,

“Electrochemical charge storage in hierarchical carbon manifolds”, Carbon, 99 (2016) 267-

271 in press, available online.

3. Anil Karumuri, Lvmeng He and Sharmila M. Mukhopadhyay, “Tuning the Surface

Wettability of Carbon Nanotube Carpets in Multiscale Hierarchical Solids”, Applied Surface

Science, 327 (2015) 122–130.

4. Anil K. Karumuri, Dhawal P. Oswal, Heather A. Hostetler and Sharmila M. Mukhopadhyay,

“Silver nanoparticles supported on carbon nanotube carpets: Influence of surface

functionalization”, Nanotechnology, accepted for publication, Feb 2016.

5. H. Vijwani, M. Nadagouda, V. Namboodiri and S. M. Mukhopadhyay “Hierarchical hybrid

carbon nano-structures as robust and reusable adsorbents: Kinetic studies with model dye

compound” Chemical Engineering Journal 268, 197-207, 2015. 1, 2015.

6. B. T Quinton, K. Leedy, J. W Lawson; B. Tsao, J. D. Scofield, J. N Merrett, Q. Zhang, K.

Yost and S. M Mukhopadhyay, “Influence of Oxide Buffer Layers on the Growth of Carbon

Nanotube Arrays on Carbon Substrates”, Carbon, Volume 87, Pages 175–185, June 2015.

7. Anil Karumuri, Adam A Maleszewski, Dhawal P Oswal, Heather A Hostetler, Sharmila M

Mukhopadhyay, "Fabrication and Characterization of Antibacterial Nanoparticles Supported

on Hierarchical Hybrid Substrates", Journal of Nanoparticle Research, March 2014, 16:2346

8. Jared McCoppin, Thomas L. Reitz, Ryan Miller, Hema Vijwani, Sharmila Mukhopadhyay

& Daniel Young, “Low Temperature Consolidation of Micro/Nanosilver Die-Attach

Preforms”, Journal of ELECTRONIC MATERIALS, DOI: 10.1007/s11664-014-3257-4,

2014.

9. Betty T. Quinton, Paul N. Barnes, Chakrapani V. Varanasi, Jack Burke, Bang-Hung Tsao,

Kevin J. Yost, and Sharmila M. Mukhopadhyay, “A Comparative Study of Three Different

Chemical Vapor Deposition Techniques of Carbon Nanotube Growth on Diamond Films,”

Journal of Nanomaterials, vol. 2013, Article ID 356259, 9 pages, 2013.

10. Natalia B. Shenogina1, Mesfin Tsige, Soumya S. Patnaik, Sharmila M. Mukhopadhyay,

“Molecular Modeling of Elastic Properties of Thermosetting Polymers Using a Dynamic

Deformation Approach” POLYMER- Volume 54, Issue 13, 7 June 2013, Pages 3370–3376.

11. Anil K. Karumuri, Dhawal P. Oswalb, Heather A. Hostetlerand Sharmila M.

Mukhopadhyay,” Silver nanoparticles attached to porous carbon substrates: robust materials

for chemical-free water disinfection”, Materials Letters, Volume 109, 15 October 2013,

Pages 83–87.

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12. Barney, I. T., Ganguli, S., Roy, A. K., & Mukhopadhyay, S. M. “Improved Thermal

Response in Encapsulated Phase Change Materials by Nanotube Attachment on

Encapsulating Solid.” J. Nanotechnol. Eng. Med. 3(3), 031005 (Jan 18, 2013).

13. S. M. Mukhopadhyay, “Ultrahigh Surface area Supports for Nanomaterial Attachment”,

United States Patent Application Publication, Pub # US 2013/0130383 A1, May 23, 2013.

14. B.T. Quinton, Q. Zhang, J. Burke, K. Leedy, B. Tsao, J. Scofield, J.N. Merrett, K. Yost,

S.M. Mukhopadhyay , “The Effects of Surface Treatments on the Growth of CNTs on 3-

Dimensional Carbon Foam Structure”, Nanotech 2013 Vol. 1, 10, Nanoscience &

Technology Institute, 2013.

15. A. Mian, C. Taylor, S. Mukhopadhyay, K. Hartke, and L. Dosser, “Microstructural Analysis

of Laser Micro-welds between Electrode Materials for Li-Ion Battery Applications,”

Proceedings of 2013 ASME International Congress & Exposition, November 2013.

16. Hema Vijwani and Sharmila M. Mukhopadhyay, “Palladium Nanoparticles on Hierarchical

Carbon Surfaces: A New Architecture for Robust Nano-Catalysts Applied Surface Science”,

Applied Surface Science, 2012.

17. Elizabeth I. Maurer, Kristen K. Comfort, Saber M. Hussain , John J. Schlager, and Sharmila

M. Mukhopadhyay, “Novel Platform Development using Assembly of Carbon Nanotube,

Nanogold and Immobilized RNA Capture Element for Rapid, Selective Sensing of

Bacteria”, Sensors 2012, 12, 8135-8144;

18. Natalia B. Shenogina, Mesfin Tsige, Soumya S. Patnaik, and Sharmila M. Mukhopadhyay,

“Molecular Modeling Approach to Prediction of Thermo-Mechanical Behavior of

Thermoset Polymer Networks, Macromolecules, (2012).

19. Hema Vijwani, Abinash Agrawal, and Sharmila M. Mukhopadhyay, “Dechlorination of

Environmental Contaminants Using a Hybrid Nanocatalyst: Palladium Nanoparticles

Supported on Hierarchical Carbon Nanostructure”, Journal of Nanotechnology, 2012,

20. Barney, I. T., Lennaerts, D. S., Higgins, S. R., & Mukhopadhyay, S. M. (2012), “Specific

Surface Area of Hierarchical Graphitic Substrates Suitable for Multifunctional

Applications”, Materials Letters, 88, 160-163.

21. J. McCoppin, I. Barney, S. Mukhopadhyay, R. Miller, T. Reitz, D. Young, “Compositional

control of continuously graded anode functional layer”, Journal of Power Sources 215

(2012) 160-163.

22. N. B. Shenogina, M. Tsige, S. M. Mukhopadhyay, S. S. Patnaik,” Molecular Modeling of

Thermosetting Polymers: Effects of Degree of Curing And Chain Length on Thermo-

Mechanical Properties”, Proceedings of the 18th International Conference on Composite

Materials (ICCM-18), Korea, 2011.

23. E. Maurer, S. Hussain and S. M. Mukhopadhyay, “Cell Growth in a Porous Microcellular

Structure: Influence of Surface Modification and Nanostructures”, Nanoscience and

Nanotechnology Letters, Vol. 3, 1–4, (2011).

24. S.M.Mukhopadhyay, “Key Attributes of Nanoscale Materials and Special Functionalities

Emerging from them” Chapter 1 in Nanoscale Multifunctional Materials: Science and

Mukhopadhyay…CV… Page 6

Applications, Sharmila Mukhopadhyay (Ed.), Wiley, ISBN: 978-0-470-50891-6, October

2011.

25. S.M.Mukhopadhyay, “Societal Impact and Future Trends in Nanomaterials” Chapter 2 in

Nanoscale Multifunctional Materials: Science and Applications, Sharmila Mukhopadhyay

(Ed.), Wiley, ISBN: 978-0-470-50891-6, October 2011.

26. J. McCoppin, D.Young, T. Reitz, A. Maleszewski, S. Mukhopadhyay, “Solid oxide fuel cell

with compositionally graded cathode functional layer deposited by pressure assisted dual-

suspension spraying”, Journal of Power Sources 196 (2011) 3761–3765

27. J. Bozeman III, I. Barney, A. Jackson, S. M. Mukhopadhyay, and H. Huang, Pt-Skin

Structured Bimetallic Catalyst Supported on nano-Ceria as Sulfur-tolerant Anodes For Fuel

Cells, ECS Transactions, Volume 35, Issue 1, May , 2011.

28. S. M. Mukhopadhyay, Editor, “Nanoscale Multi-functional Materials: Science &

Applications” Fifteen-Chapter Textbook, Wiley, ISBN: 978-0-470-50891-6, October 2011.

2010 and earlier

29. S. M. Mukhopadhyay and A. Karumuri, “Nanotube attachment to prevent interfacial

delamination”, J. Phys. D: Appl. Phys. 43 365301 (2010).

30. S. M. Mukhopadhyay, A. Karumuri and I. T. Barney, “Hierarchical nanostructures by

nanotube grafting on porous cellular surfaces”, J. Phys. D: Appl. Phys. 42 (2009).

31. S. M. Mukhopadhyay, “Nanoscale Multifunctional Materials: Nature Inspired Hierarchical

Architectures”, AZONanotechnology Feature Article, Nanotechnology Thought Leaders

Series (2009).

32. Sharmila M. Mukhopadhyay, Anil Karumuri and Ian T. Barney, “Nanotube Grafting in

Porous Solids for High Surface Devices”, pp479-82, Nanotech, Vol. 3, (2009).

33. Pulikollu, R.V.; Higgins, S.R.; Mukhopadhyay, S.M.; “Model nucleation and growth studies

of nanoscale oxide coatings suitable for modification of microcellular and nano-structured

carbon.” Surf. Coat. Technol., 2008, 203, 65-72.

34. D. Das, R.N. Singh, I. T. Barney, A. G. Jackson, and S. M. Mukhopadhyay. “Effect of

oxygen on growth and properties of diamond thin film deposited at low temperature.” J.

Vacuum Science & Technology A, Vol. 26, No. 6, pp. 1487–1496, Nov. 2008.

35. R. Pulikollu and S. M. Mukhopadhyay, “Nanoscale coatings for control of interfacial bonds

and nanotube growth”, Applied Surface Science 253 (2007).

36. S. M. Mukhopadhyay, J. Su and V. Chintamaneni, “Solution Based Approaches To

Fabrication of YBa2Cu3O7-x (YBCO): Precursors Of Tri-Fluoroacetate (TFA) And

Nanoparticle Colloids”, Journal of Electronic Materials, for August 2007.

37. J. Su, P. Joshi, V. Chintamaneni and S. M. Mukhopadhyay, "Photoelectron Spectroscopic

Investigation of Transformation of Trifluoroacetate Precursors into Superconducting

YBa2Cu3O7-x Films" Applied Surface Science 253 (10): 4652-4658 MAR 15 2007

38. X.M. Hu, P.Joshi, S.M.Mukhopadhyay and S.R.Higgins,” X-Ray Photoelectron

Spectroscopic Studies of Dolomite Surfaces Exposed To Undersaturated And Supersaturated

Mukhopadhyay…CV… Page 7

Aqueous Solutions” GEOCHIMICA ET COSMOCHIMICA ACTA 70 (13): 3342-3350

JUL 1, 2006.

39. “Interfaces in Electronic Materials”, Ed: L. Cook, D. Misra, S. Mukhopadhyay, W. Wong-

Ng, O.Leonte & K. Sundaram, Electrochemical Society, 2006.

40. Pratik P. Joshi, Rajasekhar Pulikollu, Steven R. Higgins, Xiaoming Hu,

S.M.Mukhopadhyay, “ Investigation of Growth, Coverage and Effectiveness of Plasma

Assisted Nano-films of Fluorocarbon”, Applied Surface Science, June (2006).

41. J. Su, S. M. Mukhopadhyay, V. Chintamaneni, S. Sengupta, R. Revur," Fabrication of A

Thin Film Of Multi-Cation Oxide (YBa2Cu3O7-x starting from Nanoparticles of Mixed Ions

", Supercond. Sci. Tech. 19, L51-L54, (2006).

42. S. M. Mukhopadhyay, J.H. Su, V. Chintamaneni, S. Vemulakonda, and P.P. Joshi,

“Comparison of YBCO Thin Films Fabricated Using Different Approaches” Ceramic

Transactions, (2007).

43. J. Su, V. Chintamaneni, and S. M. Mukhopadhyay, “Microstructure and Superconducting

Behavior of YBa2Cu3O7-δ Films Fabricated from Colloids of Nanoparticles”, accepted by

IEEE transactions of Applied Superconductivity (2007).

44. P.Joshi, R.Pulikollu & S.M.Mukhopadhyay, “Nanometer-scale Coatings for Nano-structured

Solids”, Surfaces & Interfaces in Nanostructured Materials, TMS Proceedings, March, 2006.

45. S.M. Mukhopadhyay, Pratik P. Joshi, Rajasekhar V. Pulikollu, “ Thin Films for Coating

Nanomaterials”, Tsinghua Science and Technology, Vol. 10, No.6, 277 – 287 (2005)

46. J.H. Su, Pratik P. Joshi, V. Chintamneni, S.M. Mukhopadhyay, “ The Influence of Heating

Rate on YBCO Films Prepared by The Trifluoroacetate Metal-organic Deposition Process”,

Superconducting Science and Technology, Vol. 18, 1496 –1501, (2005)

47. S. M. Mukhopadhyay, Pratik P. Joshi, Rajasekhar V. Pulikollu, “ Surface Engineering Issues

in Nanomaterials”, TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS 58 (6):

1017-1026 DEC 2005

48. S. M. Mukhopadhyay R. V. Pulikollua and A. K. Roy, “Surface modification of a

microcellular porous solid: carbon foam”, Applied Surface Science, Vol: 225, 1-4, March

30, 223-228, (2004).

49. “MPMD FIFTH GLOBAL INNOVATIONS PROCEEDINGS: Surfaces and Interfaces in

Nanostructured Materials and Trends in LIGA, Miniaturization and Nanoscale Materials”,

Edited by Sharmila M. Mukhopadhyay, Sudipta Seal, Narendra Dahotre, Arvind Agarwal

and John E. Smugeresky, March 2004.

50. S.M.Mukhopadhyay, "Sample Preparation Techniques for Characterization of

Solid Surfaces and Films" in Sample Preparation Techniques in Chemical Measurements,

Edited by S. Mitra, John Wiley & Sons (2003).

51. S. M. Mukhopadhyay, R. Pulikollu, E. Ripberger & A. K. Roy, "Surface Modification of

Graphitic Foam", Journal of Applied Physics, 93, 2, Jan 2003.

52. Paul N. Barnes, Sharmila M. Mukhopadhyay, Swaminathan Krishnaswami, Timothy J.

Haugan, Justin C. Tolliver and Imaan Maartense, "Correlation between the XPS Peak

Mukhopadhyay…CV… Page 8

Shapes of Y1Ba2Cu3O7-x and Film Quality", IEEE Trans. on Appl. Superconductivity, 13,

3643 (2003).

53. P. N. Barnes, T. J. Haugan, J. T. Grant, S. M. Mukhopadhyay, C. B. Cobb, M. Sumption,

and J. C. Tolliver, AC Loss and XPS Issues of YBCO Coated Conductors, Ceramic

Transactions (2004).

54. P.Joshi, R.Pulikollu & S.M.Mukhopadhyay, “Nanometer-scale Coatings for Nano-structured

Solids”, Surfaces & Interfaces in Nanostructured Materials, TMS Proceedings, 2004.

55. S. Sathiraju, R. Wheeler, P.N. Barnes, T.L.Peterson, I . Maartense, A.L. Campbell, R.M.

Nekkanti, L. Brunke, J. Murphy, T.A. Campbell, N.A. Yust, T.J. Haugan, Q. Jia, P. Arendt,

S.Mukhopadya, and S. Vemulakonda, Studies on YBa2NbO6 and YBa2Cu3-xNbxOy

Buffer Layers, Proceedings of AFOSR HTS Coated Conductor Peer-Review (2004).

56. S.M. Mukhopadhyay, “Science & Engineering of Carbon Core Structures: Surface

Engineering Issues”, Proceedings of Aerospace & Materials Sciences Program Review

(2004).

57. S. M. Mukhopadhyay, R.V.Pulikollu & A.K.Roy, “Surface Engineering Issues in Composite

Core Structures” ICCM-14, July 2003, published by Society of Manufacturing Engineers,

Article # TP03PUB296.

58. S. M. Mukhopadhyay, P. Joshi, S. Datta and J. MacDaniel, “Plasma Assisted Surface

Coating Of Porous Solids", Applied Surface Science, 201, 219-226 (2002).

59. P.N. Barnes, S. Mukhopadhyay, R. Nekkanti, T. Haugan, R. Biggers, and I. Maartense, XPS

depth profiling studies of YBCO layer on buffered substrates, Advances in Cryogenic

Engineering, 48B, pp. 614-618 (2002).

60. S. M. Mukhopadhyay, N. Mahadev and P. Joshi, A. K. Roy, K. Kearns and D. Anderson

"Structural Investigation of Graphitic Foam", Journal of Applied Physics, Vol. 91, No 5,

3415-3420, (2002).

61. S. M. Mukhopadhyay, P. Joshi, S. Datta, J.G.Zhao, P. France, "Plasma Assisted

Hydrophobic Coatings in Porous Materials", J. Phys. D: Appl Phys, 35, 1927-1933, (2002).

62. S. M. Mukhopadhyay and S. Sengupta "Dopant Enhanced Processing of Superconducting

Perovskites", Ceramic Transactions, Vol 104, 49-59, (2001).

63. C. Penache, S. Datta, S. Mukhopadhyay, P. Joshi, A. Bräuning-Demian, O. Hohn, S.

Schössler, T. Jahnke and H. Schmidt-Böcking, "Large area surface modification induced by

parallel operated MSE sustained glow discharges", Vol. 2 of Official Proceedings,

HAKONE VIII, International Symposium on High Pressure, Low Temperature Plasma

Chemistry (2002).

64. Paul N. Barnes, Sharmila Mukhopadhyay, Rama Nekkanti, Tim Haugan, Rand Biggers,

Iman Maartense, "XPS Depth Profiling Studies of YBCO Layer on Buffered Substrates",

Advances in Cryogenic Engineering, ICMC, Vol 48, 614-18, (2002).

65. R. N. Ghosh, S. Ezhilvalavan, B. Golding, S. M. Mukhopadhyay, N. Mahadev, P. Joshi, M.

K. Das and J. A. Cooper, Jr. "Profiling of the SiO2 - SiC Interface Using X-ray

Photoelectron Spectroscopy", Mat. Res. Soc. Symp. Vol. 640, Materials Research Society

(2001).

Mukhopadhyay…CV… Page 9

66. G. Y. McDaniel, S. T. Fenstermaker, D. E. Walker, and W.V. Lampert, S. M.

Mukhopadhyay and P. H. Holloway, "Quantified conditions for reduction of ESO

contamination during SiC Metalization" MATER SCI FORUM 338-3: 407-410 (2000).

67. G. Y. McDaniel, S. T. Fenstermaker, D. E. Walker, and W.V. Lampert, S. M.

Mukhopadhyay and P. H. Holloway, "Electron Stimulated Oxidation of Silicon Carbide",

Surface Science, Feb, (2000).

68. Sharmila M. Mukhopadhyay, N. Mahadev & S. Sengupta "Microstructural Analysis of

Strongly-Linked Joint Formed in a Superconductor," Physica C, 329, 95-01 (2000).

69. Sharmila M. Mukhopadhyay, Roberto Garcia and Niraj Mahadev, "Influence of Surface

Doping on Sintering and Microstructure of a Superconducting Oxide", Physica C, 313, 205-

12, (1999).

70. S. Sengupta, , E. Caprino, K. Card, J. R. Gaines, L.R.Motowildo, R.S.Sokolowski,

R.R.Garcia and S.M.Mukhopadhyay, "Synthesis of Bi-Sr-Ca-Cu-O Powders for Silver

Composite Wires with Uniform Microsized Filaments" IEEE transactions on Applied

Superconductivity, vol.9, 2, 2601-4, June (1999).

71. Sharmila M. Mukhopadhyay and C.Wei, “Interaction of Br with Y1Ba2Cu3O7-x: its role as

a dopant and an etchant”, Physica C, 295, 263-70, (1998).

72. S.M.Mukhopadhyay and C.Wei, “Interface modification by Br in the Processing of

Superconducting Composites” Ceramic Transactions, Vol 102, 217-29, (1998).

73. S.M.Mukhopadhyay, “Comparing the Surface Activity of Compounds Using an Elemental

Adsorbate”, Journal of Physics D: Applied Physics, 30, (1997).

74. E. Weil, W. Zhu, N. Patel and S. M. Mukhopadhyay, “A System Approach to Flame

Retardancy and Comment on Mode of Action”, Polymer Degradation and Stability, 54, 125-

136, (1996).

75. C. Wei and S.M.Mukhopadhyay, “Role of Halogen Dopants in Ag-Superconductor

Composites”- Physica C, 259, 356-360, (1996).

76. E. Weil, W. Zhu & S. M. Mukhopadhyay, “Intumescent Flame-Retardant System of

Phosphates and 5,5,5’, 5’, 5’’, 5’’, Hexamethyltris (1,3,2 Dioxaphosphorin-anemethan)

amine 2,2’, 2’’-Trioxide for Polyolefins”, Journal of Applied Polymer Science, Vol. 62,

2267-2280,(1996).

77. S. M. Mukhopadhyay, Chao Wei and Tim C.S. Chen, “Interactions at the Superconductor-

Metal Interface”, Applied Superconductivity, Vol. 3, No. 1-3, pp. 7-13, (1995).

78. S.M.Mukhopadhyay and Tim C.S.Chen, “Surface Chemical states of BaTiO3: Influence of

Sample Processing”, Journal of Materials Research, Vol. 10, No. 6, 1502-1507, June (1995).

79. S.M.Mukhopadhyay and Tim C.S.Chen, “Interaction of PZT with Ni: Role of Surface

Defects”, Journal of Physics D: Applied Physics, 28, 2170-2175, (1995).

80. Tim C.S.Chen and S.M.Mukhopadhyay, “Metallization of Electronic Fluropolymers”

Journal of Applied Physics, 78, 9, Nov.1, (1995).

81. S.M.Mukhopadhyay and Tim C.S.Chen, “Surface Properties of Perovskites and Their

Response to Ion Bombardment”, Journal of Applied Physics, 74, 2, 872-876, July15, (1993).

Mukhopadhyay…CV… Page 10

82. S.M.Mukhopadhyay and Tim C.S.Chen, “Ion Bombardment Induced Changes in Oxide-

Metal Interactions Studied by Photoelectron Spectroscopy”, Journal of Materials Research,

8, 8, 1958-1963, August, (1993).

83. S.M.Mukhopadhyay and Tim C.S.Chen, “Understanding Surface Activity of Oxides from

Metal-Ceramic Interface Formation”, Journal of Vacuum Science and Technology A, 10 (6),

3545-3549, (1992).

84. S.M.Mukhopadhyay and C.S.Chen, “Role of Surface Defects in Metal-Ceramic bonding”,

Structure and Properties of Interfaces in Materials, MRS Symp. Proc. Vol. 238, pp. 787-792,

Materials Research Society, (1992).

85. S.M.Mukhopadhyay and J.M.Blakely, “Ionic Double Layers at the Surface of Mg-doped

Aluminum Oxide: Its Effect on Segregation Properties”, Journal of American Ceramic

Society, 74, 1, 25-30, (1991).

86. S.M.Mukhopadhyay and S.H.Garofallini, “Surface Studies of TiO2-SiO2 Glasses by X-Ray

Photoelectron Spectroscopy”, Journal of Non-Crystalline Solids, 126, 202-208, (1990).

87. S.M.Mukhopadhyay, A.P.Jardine, J.M.Blakely & S.Baik, “Ca and Mg Segregation to the

(1010) Prismatic Surface of Mg-Implanted Sapphire.” Journal of the American Ceramic

Society, 71 [5] 358-362,(1988).

88. J.M.Blakely and S.M.Mukhopadhyay, “Segregation at Ceramic Surfaces and Effects on

Mass Transport’’, Surfaces and Interfaces of Ceramic Materials” NATO ASI Series, (1989).

89. S.M.Mukhopadhyay and J.M.Blakely, “Effect of Magnesia on Mass Transport at the Surface

of Alumina.” Characterization of the Structure and Chemistry of Defects in Materials, MRS

Symp. Proc., Vol. 138, pp. 415-420, (1989).

90. A.P.Jardine, S.M.Mukhopadhyay and J.M.Blakely, “Mg Implantation and Characterization

of Sapphire Surfaces.” Beam Solid Interactions and Transient Processes, MRS Symp. Proc.,

pp. 365-373, Materials Research Society, (1987).

91. S.M.Mukhopadhyay and J.M.Blakely, “Long Range Space Charge Effects at Ceramic

Interfaces” pp 205 -225 in Science of Ceramic Interfaces, Edited by J.Nowotny, Elsevier

Science Publishers, (1991).

IV. SAMPLE RESEARCH GRANTS AND CONTRACTS

Title Sponsor Amount Dates

EAGER: Novel catalyst design by

tailored integration of

nanomaterials with larger porous

scaffolds

National Science

Foundation

$107,995 (PI) 9/14-8/16

DERA award through ORISE EPA & AFIT About $60K/year 9/15-

ongoing

Mukhopadhyay…CV… Page 11

Water Purification Using Nano-

enabled Solutions

Ohio Third Frontier

(with industries)

Total $2M

(Academic budget

$220,000 )

10/11-1/14

“Behavior of Carbon Nanomaterials

in Aqueous Suspensions of Natural

Organic Matter”

Environmental

Protection Agency

$ 400,000

(co-PI with Clemson

University)

03/09-01/13

“Thermally responsive

Encapsulated Phase Change

Materials”

AFRL-DAGSI $ 126,681 (PI)

6/09-6/13

Influence of Water Quality on the

Bioavailability and Food Chain

Transport of Carbon Nano-particles

Environmental

Protection Agency

$1,000,000

(Co-PI)

03/09-01/13

Nanoparticles for Water

Purification

State of Ohio:

Commercialization

$25,000(PI) 11/11-9/12

Simulation of Small-Scale Damage

Evolution

UES SBIR Phase I $26,962 (PI) 6/12-1/13

A molecular modeling approach to

predicting elastic and failure

behavior of thermosetting polymers

AFOSR $ 450,000 (PI) 07/09-06/12

Multifunctional Nanomaterials Ohio Third Frontier $16,000 (PI) 07/10-3/11

Nano-engineering of Microcellular

Foam for Biocompatibility of Bone

Cell (PI)

AFRL-DAGSI $ 71,569 (PI) 6/08-6/10

Surface Modification of Porous

Carbon Structures

AFRL-GrafTech-

DAGSI

$40,000 (PI) 07/10-06/11

“Functionalization of Carbon

nanostructures with Metal Based

Nanoparticles”

AFRL-DAGSI $ 72,501 (PI) 6/09-6/11

Wright Center for Multifunctional

Polymer nanomaterials & Devices

Ohio Department of

Development

Total $22,489,845

(WSU as partner,

share $500,000)

10/05-09/10

Performance Enhancement of

Coated Conductors by Investigation

of Flux Pinning and AC Loss

Issues.

DOE $953,601 (PI) 6/04-12/05

Materials Characterization CENSMM member

companies

$70,000 (PI) 10/07-9/09

Seed Grant-Center for Nanoscale

Multifunctional materials

(CENSMM)

Ohio Board of Regents-

Research Challenge

$60,000 (PI) 6/07-5/08

Mukhopadhyay…CV… Page 12

Characterization of Surface

Modified Substrates and

Particulates using XPS

P&G Inc. $100,000 (PI) 5/05-5/07

Fabrication of High Jc Coated

Conductors Using Colloids of Un-

agglomerated Nanoparticles

DOD/STTR $100,000 (co-PI) 7/05-4/06

Hybrid Structures AFRL $28,600 (PI) 9/06-8/07

Science and Engineering of Carbon

Foams

AFOSR $78,000 (PI) 10/02 - 9/05

"High pressure Plasma Processes" Major Industry $218,000 (PI) 3/01-5/03

"Surface Modification of Nano-

structured Solids"

OBOR_Major

Collaboration Grant

$40,000 (PI) 6/03-12/04

" Thin Film Characterization Using

XPS"

Proctor & Gamble $86,000 (PI) 6/03- 5/05

"Acquisition of High Resolution

XPS facility"

National Science

Foundation-MRI

$ 300,000 (PI) 9/98 - 8/02

" High Resolution XPS facility" Ohio Board of Regents:

Action Fund

$150,000 (PI) 9/98 - 8/02

"Characterization of Thin Film

Superconductors"

Air Force Research

Laboratory-Propulsion

$17,160 (PI) 5/01-6/02

"Plasma Polymer Characterization

using XPS"

Major Industry $64,000 (PI) 6/01-5/03

" Characterization of Thin Film

Surfaces using XPS"

Proctor & Gamble Inc. $25,000 (PI) 4/00 -3/01

"Nano-structure of Carbon Core

Materials"

Air Force -Materials

$25,000 (PI) 10/00-9/01

" Characterization of Carbon

Materials"

Air Force-MLBC $25,498 (PI) 7/99-9/00

"YBCO Toroid for Gravity

Shielding"

NASA - with SCI Inc. $20,028 (PI) 8/99-9/01

"Characterization of Sub-micron

Particles"

SCI Inc $5,000 (PI) 3/98 - 2/99

"Doping of BSSCO

Superconductors"

Plastronics Inc $5,000 (PI) 4/98 - 9/98

" High Resolution XPS facility"

WSU Matching Fund $150,000 (PI) 9/98 - 8/02

"Nano-Structure-Property

Relationships

Ohio Board of Regents

Research Challenge

$20,000 (PI) 6/00-5/01

"Surface Engineering of Complex

Solids"

Ohio Board of Regents-

TCG

$41,000 (PI) 7/02-6/03

Mukhopadhyay…CV… Page 13

"Surface Chemistry of Plasma

Polymer Films"

Ohio Board of Regents

Research Challenge

$30,000 (PI) 6/01 -5/02

Interfacial Bonding in C-

Reinforced Composites

Ohio Board of Regents

R C

$18, 410 (PI) 6/99-5/00

“Surface Phenomena in

Superconducting Oxides"

OBOR

R C

$15,155 (PI) 1/99-12/99

"Interfacial Tailoring of

Engineering Materials"

OBOR

Research Challenge

$38,677 (PI) 1/98 – 6/00

“Influence of Dopants on Metal-

Ceramic Bonding”

NSF-DMR $185,900 (PI) '91-'94

"Surface Science Laboratory" Teagle Foundation

Faculty Development

$150,000 (PI) '90-'92

“Improvement of the

Superconductor-Metal Interface”

NSF-DMR $20,090 (PI) '95-'96

“Surface Composition of

Particulate Matter"

United States EPA $10,000 (PI) '95-'96

V. CLASSROOM TEACHING AND CURRICULUM DEVELOPMENT

COURSE TITLE Info

Advanced Engineering Materials (developed new

course)

Grad Core

Phase Transformations in Solids Grad Core

Thermodynamics of Solids (Materials & Clean

Energy graduate programs)

Grad Core

Ceramics for Advanced Applications (Developed

new course)

Grad Core

Materials for Nanotechnology (Developed new

course)

Elective

Intro. to Ceramics Undergrad Core

Physical Ceramics Elective

Materials Engineering Science Undergrad Core

Engineering Materials Undergrad Core

X-Ray Diffraction Elective

Physical Metallurgy Undergrad Core

Structure- Prop. Relationship in Crystals Ph.D. Core

Electro-ceramics (Developed new course) Advanced Elective

Diffusion in Solids Part of Elective

Mukhopadhyay…CV… Page 14

Introduction to Engineering: co-teaching with

other departments

Freshmen Engineering

Introduction to Design: co-teaching with others Freshmen Design

Ceramics Grad & Undergrad Core

Analytical Techniques in Materials Grad Advanced Elective

VI. RESEARCH MENTORING AND SUPERVISION

Guidance of Post-Doc/Visiting Scientists for Multi-Institutional Activities:

1. Dr. Al Jackson, 2007-2011 (Nano-Center Manager & Industrial Liason)

2. Dr. Natalia Shenojina, 2010-2013 (Molecular Modeling with Air Force and U. Akron)

3. Dr. Jianhua Sun, 2005-2007 (DOE Project with SUNY Albany and AFRL)

4. Dr. Farhad Miralai, 2003-2005 (Industrial Collaboration with Proctor & Gamble)

As Thesis/Dissertation Director of Graduate Students

In progress:

1. Ph.D. (Betty Quinton) – Carbon Nanostructures for Power Electronics, expected graduation

2016.

2. Ph.D. (Wenhu Wang) – Multiscale Flexible Structures for Catalysis and Pollutant Degradation,

expected 2017.

3. M.S. (Rakesh Nalla) – Surface Modification and Charge Storage in Hierarchical Structures,

expected 2017

Completed:

4. Ph.D. (Hema Vijwani) – Hierarchical Carbon Substrates and Nano-Catalysts S 2015

5. M.S. (Lvmeng He) – Surface Modification of Hierarchical Structures, Su 2015

6. Ph.D. (Anil Karumuri) – Porous Nano-structures and Their Adaptation for Environmental

Remediation Applications, S 2014

7. Ph.D. (Ian Barney) – Nanoscale Structures for Enhanced Functionality, F 2012

8. Ph.D. (R. V. Pulikollu) -- Nano-Coatings on Carbon Structures for Interfacial Modification, F

2005. [Note: This dissertation was listed as one of the top ten most frequently downloaded

dissertations in March 2009. http://etd.ohiolink.edu/view.cgi?acc_num=wright1135882817]

9. Ph.D. (P. Joshi) -- Study of Growth and Characterization of Nano-Coatings on Solids for

Surface Modification, Completed F 2004.

10. Ph.D.(Chao Wei)-- Influence of Br on High Temperature Superconductors, Completed, May

1997.

11. Ph.D.(Tim C.S. Chen)-- Study of Oxide-Metal Interfaces Using Electron Spectroscopy,

Completed, August 1995.

12. M.S. (Beth Maurer) – Cell Growth in a Porous Microcellular Structure, 2010.

13. B.S. Honors Thesis (Timothy Smith) – High Temperature Solid Lubricants: 2010.

Mukhopadhyay…CV… Page 15

14. M.S. (Hema Vijwani) – Highly Active Porous Catalysts by Attachment of Metal Nanoparticles

on Hierarchical Structures, 2011

15. M.S. (Adam Maleszewski) – Functionalization of Carbon Nanotubes for Biological Sensors),

2011.

16. M.S. (A. Karumuri) – Multifunctional Coatings on Microcellular Foams, F 2009.

17. M.S. (J. Kell) -- Thin Film Coated Conductors, Summer 2007.

18. M.S. (D. Sharma) -- High Temperature Coatings on Carbon, Spring 2007.

19. M.S. (S. Vemulakonda) -- Characterization of Thin Film Coated Conductors, 2008.

20. M.S. (V. Chintamamneni) -- Composition and Chemistry of High Temperature

Superconductors, July 2006.

21. M.S. (S. Krishnaswami) -- Characterization of Superconducting Films, Completed July, 2002.

22. M.S. (P. Joshi) -- Plasma Polymer Modification of Surfaces, Completed Dec. 2001

23. M.S. (N. Mahadev) -- Interface Modification of Superconductors, Completed Sept. 2000.

24. M.S.(Tim C.S. Chen)-- Ar Sputtering in Oxides Studied by ESCA, completed, April 1993.

25. M.S. (J. Tolliver) -- Pulsed Laser Deposition of Thin Film Coated Conductors, completed, 2004.

26. M.S. (Nick Yust, Co-advisor with R. Srinivasan)--, "Textured Copper Substrates for Second

Generation High temperature superconductors”, completed, Nov. 2003.

As Committee Member

1. Ph.D. (Anthony Polito) – Bioeffects of Gold Nanomaterials in an In-vitro Lung Model, 2013-

2. Ph.D. (Sathya Ganti) – Terahertz Waveguides, completed 2012

3. Ph.D. (Klint Simon) – Li-anodes on Bucky-paper for pacemaker batteries, completed 2011

4. Ph.D. (Monita Sharma) – Biological Assays for Gold Nanoparticles, 2010-present

5. M.S. (Sri Krishna Divya Pemmaraju) – Modeling of carbon nano-ribbons, completed 2012

6. M.S. (Vamsi Vempati) – Ti-based alloys, completed 2012

7. Ph.D. (Tim Osborne) – First principle atomistic models of Silicene, 2011-present

8. Ph.D (J. Shi)--Composite PEM Composites for Fuel Cells, completed 2008.

9. Ph.D. (Bala Cherukuri)– Titanium Processing, completed 2008.

10. Ph.D. (Brian Joyce) – Deformation and Recrystallization of Coarse-grained -Titanium,

Completed 2004.

11. M.S. (Theresa Hill) – Sol-Gel deposition of ZnO, Completed 2010.

12. M.S. (Kirthi Paula ) – Computational Modeling of Nanographene Ribbons, Completed 2009.

13. M.S. (Yena Li) – Carbon Nano-Structures, completed 2007.

14. M.S. (Murali) – Manipulation of Polusterene microparticles on Microchannel Glass, Completed

2006

15. M.S. (Ravi) – Fabrication of Polymer nanofibers by Modified Wet spinning, Completed April,

2006

16. M.S. (Teodora Nedkova) – Processing of AA6061 by accumulative Roll Bonding, completed

Jan. 2006.

17. M.S. (Yogesh Bahmbri)--, Microstructure Evolution of AA 6061 Subject to Severe Plastic

Deformation, completed, Nov. 2003.

Mukhopadhyay…CV… Page 16

18. M.S. (Goutham Gowda) -- Paper Abrasivity, Nov. 2000.

19. M.S. (L. Gulapalli) –Abrasivity Testing of Grament Labels F 2004

20. M.S. (John Snyder) -- Rare Earth Metals in Welding Consummables Nov. 2000.

21. M.S. (Jennifer Finch)-- Fracture Behavior of Si3N4-BN Fibrous Monolith Ceramic, completed,

August 98.

22. M.S. (Jenny Sun)-- completed, September 99.

23. Ph.D. (Z. C. Li)-- Superlattice Dislocations in Ti-Alloys, completed 1992.

24. Ph.D. (J. Petruzzello)- Structural Characteristics of ZnSe Grown by Molecular Beam Epitaxy,

completed, Dec. 1993.

25. M.S. (G. Kumar) -- CVD Synthesis of PbTiO3 films, completed Aug. 1994.

26. M.S. (I. Valsenya) --Sol-Gel Synthesis of BaTiO3, completed June 1994.

27. Ph.D. (P. Bowman) – Ferro-magnetic Compounds, completed, May 1997.

VII. MENTORING OF NON-THESIS STUDENTS

1. P. Karode, (Spring 2015): Special Topics: “Surface Modification of Multiscale Solids”

2. Special Topics team (Su, 2014): R. Ramanujam, A. Jandhyala and S. Sai-Goutham, “Water

purification system using nanomaterials”.

3. A. Malhotra, (Su 2013): Visiting Summer Student from IIT Kgp, “Responsive Hydrogel

Polymers”.

4. A. Balwally, (Su 2013): Visiting summer Student from UIUC, “Spin coating of carbon

nanotubes”.

5. Senior Design Team (W-S 07): “Oxidation Resistant Coatings for Microcellular Foam”.

6. James Ryan, (F 05 – W 06): “Materials for Geothermal Heat Pumps”, Sr. Design Project.

7. Tom Donaldson, (F 03-W04): “Design of Experimental Tests for Mechanical Properties of

Graphitic Foam.”

8. Sweta Bose (Ph.D student in Earth Sciences Program): Lab experience in microscopy, W04.

9. Kristen Shiverdecker (F 03-W04): “Design if a field-Level on-aircraft Polyimide Adhesively

Bonded repair Process”.

10. Erik Ripberger (Su 2001ME 499, W-S 2002 ME 491-492): Surface-Engineered Graphitic

Foams For Increased Matrix Infiltration And Wettability, resulted in student presentation at

national meeting (SAMPE, 2002) and used in a Journal of Applied Physics publication.

11. Paul Kennedy (1998, ME491-492) and Jeff Ingels: (1998, ME 491-492)

Senior Design Project Team: "Design and Construction of a Magnetically Levitated Train."

The students built a superconducting train that would move frictionlessly along a magnetic

track, but would resist derailment off the track. This train is now used in all external

demonstrations and student recruitment efforts.

12. Tom Fink (1998 ME 490) & Vernon Brown (1998 ME 490)

Levitation force measuring instrument for a superconducting train-track system.

13. Adam Stechschutte, Greg Updike, and Nick Elson (1999 EGR 199), Measurements of

Mukhopadhyay…CV… Page 17

levitation forces in superconducting levitators.

14. Indy Roca (1998 ME 699), Literature Search & SEM studies: Piezeo-electric Microstructures

15. Niraj Mahadev (1998 ME 699), Microscopy of nanostructures

16. Hanna Li (1999), Training on Carbon Nanostructures as exploratory Dissertation Topic

17. Srikant Bhandari (1998), SEM and XPS Laboratory Training with hourly financial support.

18. Terry Harbough (1999, non thesis option student) Initial X-Ray Laboratory Training for

exploring company-university collaboration options.

19. S. Mahesh (2000, ME 890), Initial XPS on Paper Literature Search & Training for

Dissertation topic selection.

20. S. Krishnaswami (2001, ME 890), Thin Film Oxide Materials, Exploratory studies for

collaborative options with AFRL.

21. Pratik Joshi (2000 & 2001, ME 890), SiC Surface Studies (2000) and Oxygen Mico-plasma

Studies (2001)

22. R. Pulikollu (2001, ME 890), Literature Search- Advanced Studies in Superconducting

Systems

23. R. Radhakrishnan (2001, ME 890), SEM and XPS Laboratory Training with hourly financial

support.

24. L. GullaPalli (F 2001, ME 898), SEM Training for Basic Materials Science

25. Swapna Vemulakonda (F 2002, ME 699), Microscopy & Specroscopy of Advanced Solids

26. 1995-1997: Freshman Engineering Design Projects (2-4 students every term ): Introduction

to Engineering Design EG 102, I used to be the faculty mentor for typically 3-4 students each

term, guide them through engineering magazines to select design topics and help them through

the design. Notable Designs that were taken to competitions were “Superconducting Sensor

Operated Levitated Platform for Earthquake protection”, “Piezoelectric Sensor for Traffic

Monitoring” etc.

27. Multiple students (1991-1992): Faculty Mentor for YES (Youth in Engineering and Science)

Projects: Topics: Controlled Crystal Growth and Alloy Compositional Changes.

28. Freshmen teams (1994-96): Faculty mentor for “Introduction to Engineering” projects:

Student teams would design microphones and sensing using piezoelectric samples, and compete

for best response.

VIII. EXTERNAL STUDENT ACTIVITIES

Judge, Student Poster Contests: Hosted by Ceramic Education Council and other organizations,

American Chemical society, Annual Meetings of American Ceramic Society, and MS&T

meetings, 2001-present.

Organizer and Chair - Dayton Area Graduate Student Symposium of Materials (DASSOM).

Judge, Student Speaking Contest: Environmental Effects of Nanoparticles and Nanomaterials,

Clemson University, 2010.

Mukhopadhyay…CV… Page 18

Chair of the Hoffman Scholarship Program for junior students in Materials (Nationally). Served

three terms: 01-04.

Overseeing the committee for best student presentation award in the Electronics Division

symposium at the affiliated Fall meetings, 2002-04.

IX. FACILITIES DEVELOPMENT

Surface Spectroscopy facility (AXIS Ultra), which is the latest generation of X-ray

Photoelectron Spectroscopy (XPS) Instruments. This laboratory was purchased using Major

Research Instrumentation (MRI) award obtained by me from NSF.

Plasma Processing as well as Chemical Vapor Deposition capabilities recently added to

laboratory enables controlled surface modification of engineering materials. This capability is

allowing us add surface engineering component to our materials course offerings.

Field Emission Scanning Electron Microscopy (FE-SEM): JEOL-7401 Field Emission SEM

(FESEM) was purchased by a State of Ohio Third Frontier grant obtained by me in partnership

with three other universities.

Laboratory upgrades: I have obtained and invested over $200,000 from miscellaneous funding

through companies, State of Ohio and WSU to upgrade the existing facilities in the MME

Department. These facilities are essential for student training and materials testing.

X. SERVICES TO PROFESSIONAL ORGANIZATIONS

ORGANIZATION Position

National Academies and US Department of

State

Scientific Advisor as Jefferson Science Fellow, 2016-17

Journal of Nanotechnology Guest editor, Multifunctional Nanomaterials for

Biomedical Engineering: Unique Properties,

Fabrications, Diverse Applications, 2014-2015

Journal of Nanotechnology Guest Editor of Special Edition: Nanomaterials

Synthesis, Applications, and Toxicity 2012

Metallurgical and Materials Transactions President of Editorial Board 2014-2014

Board member since 2007

ISRN Condensed Matter Physics Editorial Board

American Ceramic Society

Electronics Division

(National)

Elected Fellow , Past Chair & Nominating Committee

Materials Science and Technology

(MS&T)

Invited speaker, symposium organizer, panelist and

judge,

2006-present

Mukhopadhyay…CV… Page 19

Materials & Devices Workshop Invited Speaker, Nov 2012

Indian Institute of Technology, Madras Ph.D. Thesis, International Reviewer, 2014

ASM International, Dayton Chapter

Materials Advantage, WSU Chapter

Executive Committee 1998-present

Faculty Advisor 2001-04

American Chemical Society Invited Speaker and Student Poster Judge 2012

ASM International, Dayton Chapter Executive Committee

National Science Foundation Panel & Mail Reviews, typically 1-2 per year

Indian Institute of Technology, Bombay Ph.D. Thesis, International Reviewer

Jadavpur University Invited speaker, 2008-10, Advisory Committee for

International Symposium 2010, Ph.D. Reviewer

Saha Institute of Nuclear Physics Invited speaker 2007-8, Review Panel

Carbon

ASME-Special Issue

Journal of App Phys./Applied Phys. Letters

Journal of Membrane Research

Journal of Electronic Materials

Journal of Coatings and Technology

Journal of Biomedical Materials

Journal of American Ceramic Society

ACS Applied Materials and Interfaces

Reviewer

Reviewer

Reviewer

Reviewer

Reviewer

Reviewer

Reviewer

Reviewer

Reviewer

US Civilian R&D Foundation

Israel Science Foundation

Proposal Reviewer

Proposal Reviewer

TMS: Surfaces and Interfaces in Nano-

structured Materials,

Lead Organizer of symposium sequence, 3/04 and 3/06

"Interfaces in Electronic Materials" Co-organizer and proceedings Editor, Orlando, Fl, 2003

ASM- Student Symposium Organizer and Chair-1998, 2000

Ohio Innovation Summit (OIS), and

University Clean alliance of Ohio

(UCEAO)

presenter, panelist, co-organizer and exhibitor

XI. SERVICES TO THE UNIVERSITY

University Level Committees at WSU

Search Committee: Vice President of Research 2005, 2012

Search Committee: Dean of Engineering & Computer Science 2013

Search Committee: Associate Dean of Research 2013

Faculty Budget Priority Committee 2009-12

Leadership Team, NSF ADVANCE Program 2008-

Mukhopadhyay…CV… Page 20

Search Committee: Vice President of Research 2006-07

Search Committee: Director of RSP 2005

Board of Trustees: Academic Affairs 2005-06

Center for Women’s Studies-Advisory Board 2004-08

University Honors Committee 2002-03

University Technology Council 1999-00

UCAPC 2003-04

College of Engineering Committees at WSU

Scholarship Committee 2008-12

Graduate Curriculum Committee 2012- 14

Engineering Ph.D: Materials & Nanotechnology Focus Area, Chair 2004-06, 2014-16

Faculty Development Committee 2006-09

Department Chair Search Committee 2005-06

Curriculum Committee 2003-04

By-Laws Review Committee 1998-00

Academic Computing Committee 1998-01

Academic Computing Committee

Expenditure of Technology Fee

Associate Dean Search Committee

1999-00

1998-01

2001

Departmental Committees at WSU

Chair, Graduate Curriculum Committee 2011-present

Chair Advisory Committee 2006-present

Assistant Chair Search Committee 2006-07

Petitions

Materials Program

Faculty Development Committee

Materials Faculty Search Committees

1998-04

1997-present, Chair 2014-

2000-present

2001-present

MS Program in Clean Energy 2007-08

XII. SAMPLE OUTREACH SERVICES AND VOLUNTARY ACTIVITIES

OTHER NATIONAL AND INTERNATIONAL EXPERIENCE

Summer lectures and mentoring of K-12 Science Teachers (Outreach programs organized by

ASM-Dayton Teachers Camp, NSF-RET funding and local sponsorships).

Participated in multiple leadership panels and think tanks for popularizing science among

younger children.

Prepared lecture slides for colleagues and teachers to present at rural communities.

Mukhopadhyay…CV… Page 21

From 1993 to 2008, I have collaborated with my mother in India to raise health and hygiene

awareness among children of leprosy victims (yearly visits). Also remotely helped with

arranging tutors and personal coaches for these children and helping them procure school

supplies.

Served as Board Member of neighborhood Homeowners Association (HOA).

Lectured at elementary schools, middle schools and high schools to increase science awareness

among teachers and students.

Developed hands-on science activities for precollege students in summer.

Served as translator for medical information pamphlets for a rural NGO in India

Involvement in STEM outreach within the greater Dayton community: PubScience (talk at Pubs

attended by local community members)

Volunteered at local High School Math club: provided policy advice and logistic support.

Provided non-technical briefings to TV and newspaper reporters about recent scientific

advancements.

Served as judge for multiple student speaking and poster contests at local, national and

international meetings. Hosts have included variety of organizations such as American

Chemical Society, American Ceramic Society, Materials Science and Technology, ASM Dayton

Chapter, Environmental Effects of Nanoparticles and Nanomaterials, etc.

Sponsored networking meetings with community and professional organizations for connecting

advocacy groups with scientific experts.

Multiple planning efforts with local organizations for collaborative team building and multi-

institutional project solicitations.

Panelist & Judge: Local science fair projects, Women in Engineering and Women in Science

events.